Wheel assembly

ABSTRACT

A wheel assembly is provided which includes a wheel, an axle, and an axle-engaging wheel hub for mounting the wheel to the axle. A wheel assembly is provided which includes a wheel, an axle, and a wheel hub which is adapted for use with a fastener for mounting the wheel to the axle. A wheel assembly is provided which includes a wheel that is adapted to receive either an axle-engaging wheel hub or a wheel hub which is adapted for use with a fastener for mounting the wheel to the axle depending upon the preference of the assembler. Wheeled containers and methods of assembly thereof are also provided for use with such wheel assemblies.

RELATED APPLICATION

This application is a U.S. Non-Provisional Patent Application whichclaims priority to U.S. Provisional Patent Application Ser. No.61/566,327, filed on Dec. 2, 2011 and titled “Wheel Assembly,” which ishereby incorporated by reference in its entirety.

TECHNICAL FIELD

The invention is generally applicable to a wheel assembly. Morespecifically, the invention is applicable to a wheel assembly forcoupling a wheel to an axle for use with wheeled containers. The wheeledcontainers are particularly useful for the collection of trash, refuseand recyclable materials.

BACKGROUND

Many containers, including trash containers, include wheels to permitthe containers and their contents to be easily moved and transported.With such wheeled containers, it is often desirable to ensure that thewheels are securely coupled to an axle of the wheeled containers.Accordingly, there is a general need to provide wheeled containers withwheels that can be securely coupled to an axle of the container.

SUMMARY

According to one inventive aspect of the present invention, a wheeledcontainer is provided with a wheel assembly which includes a wheel, anaxle, and an axle-engaging wheel hub for mounting the wheel to the axle.According to one inventive aspect of the present invention, a wheeledcontainer is provided with a wheel assembly which includes a wheel, anaxle, and a wheel hub which is adapted for use with a fastener formounting the wheel to the axle. According to one inventive aspect of thepresent invention a wheeled container is provided which includes a wheelthat is adapted to receive either an axle-engaging wheel hub or a wheelhub which is adapted for use with a fastener for mounting the wheel tothe axle depending upon the preference of the assembler.

According to one inventive aspect of the present invention, a wheelassembly is provided which includes a wheel, an axle, and anaxle-engaging wheel hub for mounting the wheel to the axle. According toone inventive aspect of the present invention, a wheel assembly isprovided which includes a wheel, an axle, and a wheel hub which isadapted for use with a fastener for mounting the wheel to the axle.According to one inventive aspect of the present invention a wheelassembly is provided which includes a wheel that is adapted to receiveeither an axle-engaging wheel hub or a wheel hub which is adapted foruse with a fastener for mounting the wheel to the axle depending uponthe preference of the assembler.

According to one inventive aspect of the present invention, a wheel isprovided that is adapted to receive either an axle-engaging wheel hub ora wheel hub which is adapted for use with a fastener for mounting thewheel to the axle depending upon the preference of the assembler.

Features and advantages of the invention will be set forth in part inthe description which follows, and in part will be obvious from thedescription, or may be learned by practice of the invention. Theaccompanying drawings, which are incorporated in and constitute a partof this specification, illustrate several embodiments of the invention,and together with the description, serve to explain the principles ofthe invention.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1A shows a perspective view of one embodiment of a trash containerand wheel assembly;

FIG. 1B shows a partially exploded perspective view of the embodiment ofthe trash container and wheel assembly shown in FIG. 1A;

FIG. 2A shows a perspective view of one embodiment of a wheel of thewheel assembly of FIGS. 1A-1B;

FIG. 2B shows a front view of the embodiment of the wheel in FIG. 2A;

FIG. 2C shows a magnified front view of the wheel bore of the wheel inFIG. 2A;

FIG. 2D shows a rear view of the embodiment of the wheel in FIG. 2A;

FIG. 2E shows a cross-sectional view of the embodiment of the wheel inFIG. 2A taken along plane B-B in FIG. 2D;

FIG. 2F shows a magnified view of section A of the cross-sectional viewof the embodiment of the wheel FIG. 2E;

FIG. 3A shows a perspective view of one embodiment of a wheel hub of thewheel assembly shown in FIGS. 1A-1B;

FIG. 3B shows a side view of the embodiment of the wheel hub in FIG. 3A;

FIG. 3C shows a rear end view of the embodiment of the wheel hub in FIG.3A;

FIG. 3D shows a cross-sectional view of the embodiment of the wheel hubin FIG. 3A taken along plane X-X in FIG. 3C;

FIG. 3E shows a front end view of the embodiment of the wheel hub inFIG. 3A;

FIG. 3F shows a cross-sectional view of the embodiment of the wheel hubin FIG. 3A taken along plane Y-Y in FIG. 3E;

FIG. 4A shows a perspective view of the wheel assembly of FIGS. 1A-1B;

FIG. 4B shows a perspective view of an assembled wheel and wheel hub ofthe embodiment of the wheel assembly shown in FIG. 4A;

FIG. 4C shows an exploded perspective view of the wheel and wheel hub ofthe embodiment of the wheel assembly shown in FIG. 4A;

FIG. 4D shows a rear perspective view of an assembled wheel and wheelhub of the embodiment of the wheel assembly shown in FIG. 4A;

FIG. 4E shows a cross-sectional view of an assembled wheel and wheel hubof the embodiment of the wheel assembly shown in FIG. 4A;

FIG. 4F shows a front perspective, cut-away view of an assembled wheeland wheel hub of the embodiment of the wheel assembly shown in FIG. 4Awith a break in the axle to indicate the indeterminate length thereof;

FIG. 5A shows a perspective view of one embodiment of a wheel removaldevice with the embodiment of the wheel assembly shown in FIGS. 1A-1B;

FIG. 5B shows a cross-sectional view of the wheel removal device shownin FIG. 5A with the embodiment of the wheel assembly shown in FIGS.1A-1B;

FIG. 6A shows a perspective view of an additional embodiment of a trashcontainer and wheel assembly;

FIG. 6B shows a partially exploded perspective view of the embodiment oftrash container and wheel assembly shown in FIG. 6A;

FIG. 7A shows a perspective view of one embodiment of a wheel hub of thewheel assembly shown in FIGS. 6A-6B;

FIG. 7B shows a side view of the embodiment of the wheel hub in FIG. 7A;

FIG. 7C shows a top view of the embodiment of the wheel hub in FIG. 7A;

FIG. 7D shows an end view of the embodiment of the wheel hub in FIG. 7A;

FIG. 7E shows a cross-sectional view of the embodiment of the wheel hubin FIG. 7A taken along plane A-A in FIG. 7D;

FIG. 7F shows a cross-sectional view of the embodiment of the wheel hubin FIG. 7A taken along plane B-B in FIG. 7D;

FIG. 8A shows a perspective view of the wheel assembly of FIGS. 6A-6B;

FIG. 8B shows a perspective view of an assembled wheel and wheel hub ofthe embodiment of the wheel assembly shown in FIG. 8A;

FIG. 8C shows an exploded perspective view of the wheel and wheel hub ofthe embodiment of the wheel assembly shown in FIG. 8A;

FIG. 8D shows a rear perspective view of an assembled wheel and wheelhub of the embodiment of the wheel assembly shown in FIG. 8A;

FIG. 8E shows a cross-sectional view of an assembled wheel and wheel hubof the embodiment of the wheel assembly shown in FIG. 8A;

FIG. 8F shows a front perspective, cut-away view of an assembled wheeland wheel hub of the embodiment of the wheel assembly shown in FIG. 8Awith a break in the axle to indicate the indeterminate length thereof;

DETAILED DESCRIPTION OF THE INVENTION

The present invention will now be described with occasional reference tospecific embodiments of the invention. This invention may, however, beembodied in different forms and should not be construed as limited tothe embodiments set forth herein. Rather, these embodiments are providedso that this disclosure will fully convey the scope of the invention tothose skilled in the art and are not intended to limit the scope of theinvention in any way.

Also, while the detailed exemplary embodiments described in thespecification and illustrated in the drawings relate to wheel assembliesfor use with wheeled containers for the collection, storage andtransport of waste and refuse materials, it should be understood thatthe wheel assemblies described herein may be used in connection with anywheeled device or container and the wheel assemblies described hereinare not limited to use with waste or refuse containers only. Forexample, the wheel assemblies described herein may be used in connectionwith wheelbarrows, wagons, garden carts, trailers, wheeled carts havinga variety of uses, and other wheeled devices.

Except as otherwise specifically defined herein, all terms used hereinhave the same meaning as commonly understood by one of ordinary skill inthe art to which this invention belongs. The terminology used in thedescription of the invention herein is for describing particularembodiments only, and is not intended to be limiting of the invention.As used in the description of the invention, the singular forms “a,”“an,” and “the” are intended to include the plural forms as well, unlessthe context clearly indicates otherwise.

Unless otherwise indicated, all numbers expressing quantities,properties, and so forth as used in the specification are to beunderstood as being modified in all instances by the term “about.”Accordingly, unless otherwise indicated, the numerical properties setforth in the following specification are approximations that may varydepending on the desired properties sought to be obtained in embodimentsof the present invention. Notwithstanding that the numerical ranges andparameters setting forth the broad scope of the invention areapproximations, the numerical values to the extent that such are setforth in the specific examples are reported as precisely as possible.Any numerical values, however, inherently contain certain errorsnecessarily resulting from error found in their respective measurements.

FIGS. 1A-1B show one exemplary embodiment of a wheeled container 10which includes one exemplary embodiment of wheel assembly 100. Referringto FIGS. 1A-1B, the container 10 includes a walled receptacle portion 20and lid 30, which combine to form an enclosed space. The lid 30 isattached to the receptacle portion 20 with a plurality of hinges 40.However, additional embodiments of container 10 may not include a lid ormay include a lid that is not connected to the receptacle portion 20 oris connected to the receptacle portion by a mechanism other than hinges.

The shape and configuration of the wheeled container 10 may vary invarious embodiments. As shown in FIGS. 1A-1B, the exemplary embodimentof the container 10 has a generally four-sided polygonal shape whenviewed from the top. However, the container 10 is not limited to theshape of the exemplary embodiment of container 10 and additionalembodiments of the container could have a variety of suitable shapes.

A container 10 according to the present invention may be formed of oneor more of a variety of suitable materials. The particular material isgenerally selected to be compatible with the intended contents andpurpose and desired qualities of the container 10. For example, invarious embodiments, the container 10 may be made from one or acombination of thermoplastic or elastomeric materials, such as plastic.In various additional embodiments, the container 10 may be made from oneor a combination of metals, such as steel or aluminum.

A container 10 according to the present invention may be manufactured byone of a variety of methods of making containers that are well known inthe art. Good results are obtained using rotational, injection or blowmolding processes with a variety of thermoplastic and elastomericmaterials. Accordingly, in various embodiments according to the instantinvention, a container 10 may be made from one or a combination ofthermoplastic or elastomeric materials, such as: polyesters,Polycarbonate (PC), polypropylene (PP), polyethylene (PE), High DensityPolyethylene (HDPE), Low Density Polyethylene (LDPE), Polyvinyl Chloride(PVC), polyester terphthalate, butadiene-styrene co-polymers,polyamides, ethylene-vinyl-alcohol copolymer, polyethylenenapthaphthalate, thermoplastic and thermosetting resins, polybutyleneterephthalate, polyoxymethylenes, polyphenylene, polyphenylene sulfides,polyphenylene oxides, polymethylmethacrylate, polyethylene-terephthalate(PET), polyvinylidenechloride, polymethylpentene-1, nylon 6, nylon 66,Polyethylene Terephthalate Modified with CHDM (PETG), and mixturesthereof.

Referring again to FIGS. 1A-1B, the container 10 includes a pair ofwheel receiving recesses 50. The wheel receiving recesses 50 of theillustrated embodiment of container 10 are adapted to protect the wheelsfrom damage when the container 10 is in use and to allow for multiplecontainers 10 to be stacked even when wheels are mounted to thecontainers 10. The wheel receiving recesses 50 may have a variety ofsizes, shapes and configurations in additional embodiments of thecontainer 10. Additional embodiments of container 10 may include morethan a pair of recesses 50. For example, if the wheeled container 10 isa wheeled cart, the container 10 may include four wheel receivingrecesses 50. In yet additional embodiments of container 10, no wheelreceiving recesses 50 may be included and the wheels may be mounted tothe container in a non-recessed manner.

The illustrated embodiment of container 10 includes a pair of wheelassembly mounting portions 60, which extend from container and includean axle bore 70 defined therethrough. The wheel assembly mountingportions 60 may have a variety of sizes, shapes and configurations inadditional embodiments of the container 10. Additional embodiments ofcontainer 10 may include more than a pair of wheel assembly mountingportions 60. For example, if the wheeled container 10 is a wheeled cart,the container 10 may include four wheel assembly mounting portions 60.In yet additional embodiments of container 10, no wheel assemblymounting portions 60 may be included and the wheels may be mounteddirectly to the walls of the container.

Axle-Engaging Wheel Assembly:

Referring again to FIGS. 1A-1B, the illustrated embodiment of wheeledcontainer 10 includes a wheel assembly 100. The wheel assembly 100 ofthe illustrated embodiment generally includes an axle 102, a pair ofwheels 104, and a pair of wheel hubs 106. Wheel assembly 100 is mountedto container 10 by the axle 102, which extends through the axle bore 70defined through wheel assembly mounting portions 60 of container 10. Awheel hub 106 retains each wheel 104 on axle 102. As described ingreater detail herein, wheel hub 106 is an axle-engaging wheel hub thatmounts within wheel 104 and subsequently mounts onto axle 102 withoutthe need for any additional fasteners.

While the wheel assembly 100 of the illustrated embodiment includes oneaxle and a pair of wheels and wheel hubs, additional embodiments ofwheel assembly 100 may include different numbers of axles, wheels orwheel hubs. For example, various additional embodiments may include twoaxles and a pair of wheels, with each wheel being mounted to thecontainer with its own axle. In addition, various additional embodimentsof the wheel assembly may include different numbers of wheels, such asone wheel, three wheels, four wheels, etc., which are mounted to one ormore axles by one or more wheel hubs.

Referring to FIG. 1B, the axle 102 of the illustrated embodiment ofwheel assembly is an elongated rod formed from a suitable material. Forexample, in various embodiments, the axle 102 may be made from one or acombination of metals, such as steel or aluminum or one or a combinationof thermoplastic or elastomeric materials, such as plastic. The axle 102of the illustrated embodiment includes chamfered ends 108. However,additional embodiments of the wheel assembly 100 may include an axlewhich does not include chamfered ends. The axle 102 of the illustratedembodiment includes notches 110 defined near each of the chamfered ends108 which extend radially inwardly from an outer surface of the axle 102and engage with the wheel hubs 106 (as described in more detail herein)to retain the wheels 102 on the axle 102. The notches 110 of theillustrated embodiment have a generally rectangular cross sectionalshape, however additional embodiments of the axle 102 may have a varietyof suitable shapes. The notches 110 of the illustrated embodiment aredefined around the entire circumference of the axle 102, howeveradditional various embodiments of the axle 102 may include notches whichare only defined within a portion of the circumference of the axle. Inyet further additional embodiments of the axle 102, may include one ormore projections extending from the axle or other features definedwithin or structures projecting from the axle 102, which engage with thewheel hub 106 for retaining the wheels 104 on the axle 102. As mentionedpreviously, while the wheel assembly 100 of the illustrated embodimentincludes one axle, additional embodiments of wheel assembly 100 mayinclude different numbers of axles. For example, various additionalembodiments may include a pair of axles.

To mount the wheel assembly 100 of the illustrated embodiment tocontainer 10, axle 102 is inserted through the axle bore 70 definedthrough the wheel assembly mounting portions 60 of container 10 and awheel 104 is attached to each opposing end of the axle 102 by wheel hub106 which engages notch 110 defined within the axle 102 (as described inmore detail herein).

Referring now to FIGS. 2A-2E, the illustrated embodiment of wheel 104 ofwheel assembly 100 includes a tread 200 positioned on an outer surfaceextending around the circumference. A raised, generally flat band 202extends around the outer surface of the circumference of the wheel 104in the center of the tread 200. The illustrated embodiment of wheel 104includes a plurality of indentations 204 defined within an outer face206 and inner face 208 of wheel 104. However, additional embodiments ofwheel assembly 100 may include wheels 105 having a variety of differentshapes and configurations. For example, additional embodiments of wheel104 may not include a tread 200, raised band 202, or indentations 204defined on the outer face 206 and/or inner face 208 of wheel 104.

A wheel 104 according to the present invention may be formed of one ormore of a variety of suitable materials. The particular material isgenerally selected to be compatible with the desired qualities of thewheel 104. For example, in various embodiments, the wheels 104 may bemade from one or a combination of thermoplastic or elastomericmaterials, such as plastic. In various additional embodiments, thewheels 104 may be made from one or a combination of metals, such assteel or aluminum.

A wheel 104 according to the present invention may be manufactured byone of a variety of methods of making wheels and other containercomponents that are well known in the art. The wheel 104 of theillustrated embodiment is formed by a blow molding process using a HighDensity Polyethylene (HDPE). However, good results are also obtainedusing rotational or injection molding processes with a variety of otherthermoplastic and elastomeric materials. Accordingly, in variousadditional embodiments according to the instant invention, wheels 104may also be made from one or a combination of thermoplastic orelastomeric materials, such as: polyesters, Polycarbonate (PC),polypropylene (PP), polyethylene (PE), Low Density Polyethylene (LDPE),Polyvinyl Chloride (PVC), polyester terphthalate, butadiene-styreneco-polymers, polyamides, ethylene-vinyl-alcohol copolymer, polyethylenenapthaphthalate, thermoplastic and thermosetting resins, polybutyleneterephthalate, polyoxymethylenes, polyphenylene, polyphenylene sulfides,polyphenylene oxides, polymethylmethacrylate, polyethylene-terephthalate(PET), polyvinylidenechloride, polymethylpentene-1, nylon 6, nylon 66,Polyethylene Terephthalate Modified with CHDM (PETG), and mixturesthereof.

Referring again to FIGS. 2A-2E, the illustrated embodiment of wheel 104includes a wheel hub receiving cavity 210 defined through center 212 ofwheel 104. The wheel hub receiving cavity 210 may have a variety ofdifferent sizes, shapes and configurations in various embodiments of thewheel assembly 100 of the present invention. As best illustrated in FIG.2F, wheel hub receiving cavity 210 includes an outer cavity portion 210a opening to outer face 206 of wheel 104 and an inner cavity portion 210b opening to inner face 208 of wheel 104.

As best shown in FIGS. 2B-2C, the outer cavity portion 210 a of theillustrated embodiment includes a rectangular shaped aperture 214 whichis bisected by a central bore 216. Notches 218 extend from the top andbottom of rectangular aperture 214. Referring now to FIG. 2D, the innercavity portion 210 b of the illustrated embodiment includes a centralbore 220 which is divided into four equal radii portions by notches 222which extend radially outward from the central bore 220 of the innercavity portion 210 b. As best shown in FIG. 2E, notches 222 extend theentire length of inner cavity portion 210 b. As best shown in FIGS. 2Cand 2E, central bore 216 of outer cavity portion 210 a (diameter ofcentral bore 210 of outer cavity portion 210 is set forth in brokenlines in FIG. 2E) has a larger diameter than central bore 220 of theinner cavity portion 210 b. The diameter central bore 220 of the innercavity portion 210 b tapers out to the diameter of central bore 216 ofouter cavity portion 210 a at step 224 (i.e., the combined bore formedby central bore 216 and central bore 220 has a two-stepped diameter). Agenerally circular, relatively shallow depression 226 is defined withinthe outer face 206 of wheel 104 around the outer perimeter of wheel hubreceiving cavity 210.

It should be understood that additional embodiments of wheel 104 mayinclude wheel hub receiving cavities 210 which have a variety ofdifferent shapes and configurations. For example, various additionalembodiments of wheel 104 may include wheel hub receiving cavities 210which have a uniform shape and/or diameter throughout the entire lengthof the wheel hub receiving cavity. Various embodiments of wheel 104 mayinclude wheel hub receiving cavities 210 which does not include one ormore of outer cavity portion 210 a, inner cavity portion 210 b,rectangular shaped aperture 214, notches 218, and/or notches 222. Forexample, various embodiments of wheel 104 may include a uniform circularbore extending through the entire depth of the wheel.

Referring now to FIGS. 3A-3F, one embodiment of wheel hub 106 isillustrated in greater detail. The wheel hub 106 of various embodimentsmay have a variety of different shapes and configurations. The wheel hub106 is generally shaped, configured and dimensioned to be receivedwithin wheel hub receiving cavity 210 defined in wheel 104 and engageaxle 102 to retain wheel 104 on axle 102.

The illustrated embodiment of wheel hub 106 generally includes anelongated axle sleeve 300 and a main body portion 302 extending radiallyoutwardly from the elongated axle sleeve 300. The wheel hub has aninsertion end 304 and an outer end 306. An axle receiving bore 308 isdefined in the insertion end 304 of the axle sleeve 300 and extendsthrough the entire length of axle sleeve 300. At the outer end 306 ofthe wheel hub 106, a wheel engaging shoulder 310 extends radiallyoutwardly from the main body portion 302. An axle receiving projection312 extends axially outwardly from the wheel engaging shoulder 310.

Referring again to FIGS. 3A-3F, the main body portion 302 of theillustrated embodiment of wheel hub 106 is formed by a pair of sidewalls314 and an end wall 316 that define a partially enclosed space, with anopening 318 being defined in the top and bottom of main body portion302. Additional embodiments of wheel hub 306 include a main body portion302 that is shaped or configured differently or is completely enclosedwith no opening 318. As best illustrated in FIG. 3C, the main bodyportion 302 of the illustrated embodiment of wheel hub 106 has agenerally rectangular shape when viewed from the insertion end 304 ofwheel hub 106 and a tab 320 extends radially outwardly from both the topand bottom of end wall 316.

The main body portion 302 is generally shaped, configured anddimensioned to be received within the outer cavity portion 210 a ofwheel hub receiving cavity 210 defined in wheel 104, with the shape ofthe end wall 316 and tabs 320 coinciding generally with the shape of therectangular shaped aperture 214 of outer cavity portion 210 a and thenotches 218 extending from the top and bottom of rectangular aperture214. It should be understood, however, that the main body portions 302of various additional embodiments may have a variety of differentshapes, sizes and configurations and the shape of the main body portions302 is not limited by the disclosure herein. For example, the main bodyportion may have a circular, elliptical or other shape when viewed fromthe insertion end 304 of wheel hub 106.

As best shown in FIGS. 3A & 3B, a pair of cantilevered arms 322 extendaxially inwardly from wheel engaging shoulder 310 into the partiallyenclosed space defined by the main body portion 302. Each of thecantilevered arms 322 include a main portion 324 and a lug portion 326extending radially inwardly 324 into the axle receiving bore 308 fromthe main portion 324. Cantilevered arms 322 stop short of end wall 316of main body portion 302 so that cantilevered arms 322 are unobstructedfrom movement. The cantilevered arms 322 of the illustrated embodimentare adapted to pivot so that lug portions 326 of arms 322 are moveableradially inwardly and outwardly with respect to the axle receiving bore308 of the wheel hub 106. Cantilevered arms 322 are generallycircumferentially spaced from each other by approximately 180° so thatlug portions 326 are positioned on opposite sides of axle receiving bore308. As best illustrated in FIGS. 3D & 3E, a channel 328 is definedwithin the top surface of the main portion 324 of each cantilevered arm322 and extends into the body of lug portion 326.

It should be understood that cantilevered arms 322 of various additionalembodiments may have a variety of different shapes, sizes andconfigurations. For example, the cantilevered arms could extend fromportions of the wheel hub 106 other than the wheel engaging shoulder 310and could extend axially outward with respect to the wheel hub 106instead of axially inward. Also, additional embodiments of the wheel hub106 may include more than two cantilevered arms 322 or may include onlyone such arm. In yet further additional embodiments, cantilevered arms322 may be replaced by another mechanism such as a spring drivenplunger, reciprocating pin, or other mechanism.

Referring again to FIGS. 3A-3F, the elongated axle sleeve 300 of theillustrated embodiment of wheel hub 106 includes a wheel engaging rib330 which extends outwardly from the axle sleeve 300 at a positionaxially inward from the insertion end 304 of wheel hub 106. The wheelengaging rib 330 tapers from a first end 332 outwardly to a second end334 which has a wider diameter relative to the first end 332. In variousadditional embodiments the wheel engaging rib 330 may have a variety ofdifferent sizes, shapes and configurations. For example the wheelengaging rib 330 may be located at any position along the axle sleeve300 in additional embodiments or may have a simple rectangular shape andnot be tapered.

A plurality of longitudinal ribs 336 project outwardly from the axlesleeve 300 and generally extend along the length of the axle sleeve 300.A plurality of circumferential ribs 338 project outwardly from the axlesleeve 300. The circumferential ribs 338 are annular ribs which encirclethe axle sleeve 300, but in various additional embodiments thecircumferential ribs 338 may be non-annular and may be located atvarious discrete locations about the circumference of the axle sleeve300. The longitudinal ribs 336 and circumferential ribs 338 serve tostrengthen the axle sleeve 300 and main body portion 302 of the wheelhub 106. Due to the inclusion of longitudinal ribs 336 and/orcircumferential ribs 338, the amount and thickness of the material usedto fashion the axle sleeve 300 and main body portion 302 of the wheelhub 106 can be reduced without sacrificing the strength, rigidity ordurability of the components of the wheel hub 106. The longitudinal ribs336 and/or circumferential ribs 338 allow the axle sleeve 300 and mainbody portion 302 of the wheel hub 106 to have similar strength, rigidityand durability as a thicker axle sleeve 300 and main body portion 302 oran axle sleeve 300 and main body portion 302 fashioned from a strongermaterial. In this manner, less material or a less costly material may beused to fashion various components of the wheel hub 106 withoutsacrificing much or any strength, rigidity or durability. Accordingly,the longitudinal ribs 336 and circumferential ribs 338 also serve toreduce the weight of the axle sleeve 300 and main body portion 302 ofthe wheel hub 106 by allowing less material to be used to form the axlesleeve 300 and main body portion 302 of the wheel hub 106. Variousadditional embodiments of wheel hub 106 may be provided withlongitudinal or circumferential ribs having a variety of shapes, sizesand configuration or may be provided without any such longitudinal orcircumferential ribs.

The elongated axle sleeve 300 is generally shaped, configured anddimensioned to be received within the inner cavity portion 210 b ofwheel hub receiving cavity 210 defined in wheel 104, with the shape ofthe axle sleeve 300 and longitudinal ribs 336 extending therefromcoinciding generally with the shape of the central bore 220 and notches222 which extend radially outward from the central bore 220. Theplurality of circumferential ribs 338 projecting outwardly from the axlesleeve 300 are generally shaped, configured and dimensioned to bereceived within the central bore 216 of the outer cavity portion 210 aof wheel 104. It should be understood, however, that the elongated axlesleeve 300 of various additional embodiments may have a variety ofdifferent shapes, sizes and configurations and the shape of theelongated axle sleeve 300 is not limited by the disclosure herein. Forexample, the axle sleeve 300 may have a rectangular, elliptical or othershape when viewed from the insertion end 304.

Referring again to FIGS. 3A-3F, an opening 340 (as best illustrated inFIGS. 3D & 3E) is defined through the axle receiving projection 312 ofwheel hub 106, which is in communication with the axle receiving bore308 of the axle sleeve 300. In the illustrated embodiment of wheel hub106, opening 340 has a generally rectangular shape (as best shown inFIG. 4A) formed by semi-circular ledges 342 of axle receiving projection312. As best shown in FIGS. 3D & 3F, an arcuate indentation 344 isdefined within an inner surface 345 of each ledge 342. The indentation344 is generally configured, shaped and dimensioned to coincide with theshape of the end 108 of axle 102. The shape, size and configuration ofopening 340 and ledges 342 of axle receiving projection 312 are adaptedto prevent the end 108 of axle 102 from passing through the axlereceiving projection 312. As described in greater detail herein, as thewheel hub 106 is slid onto axle 102, the end 108 of axle is preventedfrom passing through axle receiving projection 312 by ledges 342 (aswell as the engagement of lugs 326 with the notch 110 defined in axle102). It should be understood, however, that the axle receivingprojection 312 of various additional embodiments of wheel hub may have avariety of different shapes, sizes and configurations and the shape ofthe axle receiving projection 312 is not limited by the disclosureherein. For example, the axle receiving projection 312 does have anopening defined therein, but may be completely closed in additionalembodiments. Also, in additional embodiments, the axle receivingprojection 312 does not extend from the wheel engaging shoulder 310, butis flush with it.

Referring again to FIGS. 3A-3F, a transverse rib 346 extends across thesurface of wheel engaging shoulder 310 to support and strengthen axlereceiving projection 312. Additional embodiments may be provided withoutsuch a rib, however. Openings 348 are defined in wheel engaging shoulder310, which pet it access to the channel 328 defined within the mainportion 324 and lug portion 326 of each cantilevered arm 322. However,additional embodiments may be provided without any such openings 348 orchannel 328 defined within the main portion 324 and lug portion 326 ofeach cantilevered arm 322. It should be understood that the axle wheelengaging shoulder 310 of various additional embodiments of wheel hub mayhave a variety of different shapes, sizes and configurations other thanthe generally circular shape of the illustrated embodiment.

In the illustrated embodiment of wheel hub 106, axle sleeve 300 includesa spacer portion 350 which extends past the wheel engaging rib 330. Inuse, the spacer portion 350 of the wheel hub 106 serves to space thewheel 104 from the container 10 to prevent the wheel 104 from rubbingagainst the container 10 when the wheel 104 is mounted onto axle 102 ofthe container 10. The end of spacer portion 350 abuts the outer surfaceof wheel receiving recesses 50 of container 10 to create a space betweenthe inner face 208 of wheel 104 and the outer surface of the wheelreceiving recess 50 of container 10 when the wheel 104 is mounted on thecontainer 10 to prevent the inner face 208 of wheel 104 from rubbingagainst the container 10 when the wheel 104 rotates. The dimensions ofthe spacer portion 350 may be modified, as desired, in variousembodiments of wheel hub 106 to provide a space having a variety ofdifferent dimensions between the wheel 104 and container 10 when thewheel 104 is mounted to the container 10. Various additional embodimentsof wheel hub 106 may be provided without such a spacer portion 350.Various additional embodiments of wheel hub 106 may be provided with aseparate spacer that is not integrally formed with the wheel hub 106.

A wheel hub 106 according to the present invention may be formed of oneor more of a variety of suitable materials. The particular material isgenerally selected to be compatible with the desired qualities of thewheel hub 106. For example, in various embodiments, the wheel hubs 106may be made from one or a combination of thermoplastic or elastomericmaterials, such as plastic. In various additional embodiments, the wheelhubs 106 may be made from one or a combination of metals, such as steelor aluminum.

A wheel hub 106 according to the present invention may be manufacturedby one of a variety of methods of making containers that are well knownin the art. The wheel hub 106 of the illustrated embodiment is formed byan injection molding process using an engineered material includingnylon 66 and impact modifiers. However, good results are also obtainedusing rotational or blow molding processes with a variety of otherthermoplastic and elastomeric materials. Accordingly, in variousadditional embodiments according to the instant invention, wheels 104may also be made from one or a combination of thermoplastic orelastomeric materials, such as: polyesters, Polycarbonate (PC),polypropylene (PP), polyethylene (PE), High Density Polyethylene (HDPE),Low Density Polyethylene (LDPE), Polyvinyl Chloride (PVC), polyesterterphthalate, butadiene-styrene co-polymers, polyamides,ethylene-vinyl-alcohol copolymer, polyethylene napthaphthalate,thermoplastic and thermosetting resins, polybutylene terephthalate,polyoxymethylenes, polyphenylene, polyphenylene sulfides, polyphenyleneoxides, polymethylmethacrylate, polyethylene-terephthalate (PET),polyvinylidenechloride, polymethylpentene-1, nylon 6, PolyethyleneTerephthalate Modified with CHDM (PETG), and mixtures thereof.

Assembly of Wheel Hub and Wheel:

As described in greater detail herein, wheel hub 106 is an axle-engagingwheel hub that mounts within wheel 104 and subsequently mounts onto axle102 without the need for any additional fasteners. In other exemplaryembodiments, the wheel hub 106 may be mounted onto the axle 102 first,then the wheel hub 106 may be mounted within the wheel 104 without theneed for additional fasteners. The use of such an axle-engaging wheelhub 106 generally reduces assembly time and complexity and allows thewheel hub 106 to be mounted to wheel 104 and the wheel 104/wheel hub 106subassembly to be mounted to axle 102 without the added cost, time, ordifficulty associated with the use of fasteners or fastening tools toassemble the wheel assembly 100.

Referring now to FIGS. 4A-4B, one embodiment of wheel assembly 100 isshown in various stages of assembly. After the production of wheel 104and wheel hub 106, wheel hub 106 is inserted into the wheel hubreceiving cavity 210 defined through center 212 of wheel 104 (as shownby the dashed line in FIG. 4C). The wheel 104 and wheel hub 106 of theillustrated embodiment, may be assembled soon after they are molded orthe wheel 104 and wheel hub 106 may be assembled at a later time.

To assemble the wheel hub 106 and wheel, the insertion end 304 of wheelhub 106 is inserted into the wheel hub receiving cavity 210 of wheel104, with the insertion end 304 first passing through the central bore216 of outer cavity portion 210 a and then moving into the central bore220 of inner cavity portion 210 b. As the insertion end 304 of wheel hub106 is inserted into the central bore 220 of inner cavity portion 210 b,the plurality of longitudinal ribs 336 extending along the length ofaxle sleeve 300 are aligned with and fit within the notches 222 ofcentral bore 220 of inner cavity portion 210 b by the assembler (orassembling mechanism). The engagement of longitudinal ribs 336 of axlehub 106 with notches 222 of central bore 220 of wheel 104, serve toalign and orient the wheel hub 106 and wheel 104 for proper assembly.Once the wheel hub 106 and wheel 104 have been assembled together, theribs 336 of wheel hub 106 remain within notches 222 of wheel 104 tostabilize wheel hub 106 and prevent rotational movement of the wheel hub106 relative to the wheel 104. As mentioned previously, additionalembodiments of wheel assembly 100 may be provided without any such ribsor notches however.

As the insertion end 304 of wheel hub 106 is further inserted into thecentral bore 220 of inner cavity portion 210 b, the wheel engaging rib330 located on the elongated axle sleeve 300 of wheel hub 106 contactsthe stepped portion 224 of central bore 220, the wheel engaging rib 330and/or central bore 220 deform to permit the continued passage of theinsertion end 304 of wheel hub 106 through central bore 220. The shape,dimension, configuration and material properties of wheel engaging rib330 and central bore 220 are adapted and configured to permit the wheelengaging rib 330 and/or central bore 220 to deform a sufficient amountto permit the wheel engaging rib 330 to pass through the central bore220 and exit the wheel hub receiving cavity 210 on the inner face 208side of wheel 104. As best illustrated in FIGS. 4D-4F, once the wheelengaging rib 330 of the elongated axle sleeve 300 of wheel hub 106 exitsthe wheel hub receiving cavity 210 of wheel 104, the wheel engaging rib330 abuts and rests against the inner face 208 side of wheel 104. Theouter diameter dimension of the wheel engaging rib 330 is larger thanthe outer diameter dimension of central bore 220. This engagement of thewheel engaging rib 330 with the inner face 208 side of wheel 104,prevents the wheel hub 106 from being pulled back out of the wheel hubreceiving cavity 210 of wheel 104 from the outer face 206 side of wheel104.

In certain assembly methods employed with certain embodiments of wheelassembly 100, a hammer or other impact, striking, pushing, pulling,driving or urging element is used to force wheel engaging rib 330through wheel hub receiving cavity 210. However, certain embodiments ofwheel assembly, may be assembled without the use of such a device. Inadditional embodiments of wheel assembly 100, wheel hub 106 may notinclude such a wheel engaging rib 330. For example, the wheel hub 106may be retained within wheel 104 by a cotter pin or other fasteningmechanism.

As the insertion end 304 of wheel hub 106 is being inserted into centralbore 220 of inner cavity portion 210 b, the main body portion 302 ofwheel hub 106 enters the outer cavity portion 210 a of the wheel hubreceiving cavity 210 of wheel 104. As the main body portion 302 of wheelhub 106 enters the outer cavity portion 210 a, the sidewalls 314, endwall 316, and tabs 320 of the main body portion 302 are aligned with andfit within the rectangular shaped aperture 214 and notches 218 of outercavity portion 210 a by the assembler (or assembling mechanism). Also,the ribs 338 projecting outwardly from the axle sleeve 300 are alignedwith and fit within the central bore 216 of the outer cavity portion 210a of wheel 104. The alignment of sidewalls 314, end wall 316, and tabs320 of the main body portion 302 of axle hub 106 with the rectangularshaped aperture 214 and notches 218 of outer cavity portion 210 a ofwheel 104 (and the alignment of ribs 338 with central bore 216), serveto align and orient the wheel hub 106 and wheel 104 for proper assembly.Once the wheel hub 106 and wheel 104 have been assembled together, thesidewalls 314, end wall 316, and tabs 320 of the main body portion 302of axle hub 106 remain within the rectangular shaped aperture 214 andnotches 218 of outer cavity portion 210 a of wheel 104 to stabilizewheel hub 106 and prevent rotational movement of the wheel hub 106relative to the wheel 104. Additional embodiments of wheel assembly 100may be provided without a main body portion 302 of axle hub 106 and/orouter cavity portion 210 a or may be provided with a main body portion302 and outer cavity portion 210 a that do not have correspondingshapes.

As the wheel engaging rib 330 of insertion end 304 of wheel hub passesthrough the central bore 220 and exits the wheel hub receiving cavity210 on the inner face 208 side of wheel 104, the wheel engaging shoulder310 of wheel hub 106 contacts the outer face 206 of wheel 104 (as bestshown in FIG. 4E). The outer diameter dimension of the wheel engagingshoulder 310 is larger than the dimension of wheel hub receiving cavity210. This engagement of the wheel engaging shoulder 310 with the outerface 206 of wheel 104, prevents the wheel hub 106 from being pushedfurther through the wheel hub receiving cavity 210 of wheel 104 from theouter face 206 side of wheel 104.

In the illustrated embodiment of wheel hub 106, the distance betweenwheel engaging rib 330 and wheel engaging shoulder 310 of wheel hub 106is adapted to be only slightly larger than the width of wheel 104 (asbest shown in FIG. 4E), although the wheel hub 106 may be dimensioneddifferently in additional embodiments. In this manner, wheel hub 106 issecurely mounted within wheel 104 an only able to move a minimal amountrelative to wheel 104, since the wheel engaging rib 330 and wheelengaging shoulder 310 of wheel hub 106 cooperate to prevent the wheelhub 106 from moving relative to wheel 104 when the wheel hub 106 ismounted in wheel 104. In additional embodiments of wheel assembly 100,wheel hub 106 may not include such a wheel engaging shoulder 310. Forexample, the wheel hub 106 may be retained within wheel 104 by a cotterpin or other fastening mechanism. The shape, configuration anddimensions of the illustrated wheel engaging shoulder 310 are adapted tofit within depression 226 defined within the front face 206 of wheel104. However, additional embodiments of wheel assembly, may be providedwithout such a depression.

Assembly of Wheel and Axle:

After the insertion of wheel hub 106 into wheel 104, the wheel 104/wheelhub 106 subassembly is mounted onto axle 102. The wheel 104/wheel hub106 subassembly of the illustrated embodiment, may be mounted onto anaxle 102 soon after they are assembled together or the wheel 104/wheelhub 106 subassembly may be mounted onto an axle 102 at a later time. Thewheel 104/wheel hub 106 subassembly may be mounted onto an axle 102 thatis already mounted to container 10 or they may be first mounted onto anaxle 102 which is then mounted to container 10. In yet additionalembodiments, the axle 102 and wheel hub 106 may be assembled togetherand the wheel 104 can then be assembled with the wheel hub 106 which isalready mounted on the axle 102.

The wheel 104/wheel hub 106 subassembly are mounted onto an axle 102 bypushing the wheel hub 106 onto the axle 102. The end 108 of axle 102 isinserted through the axle receiving bore 308 defined through the axlesleeve 300 of wheel hub 106. When the end 108 of axle 102 is insertedinto the axle receiving bore 308 a sufficient amount, end 108 of axle102 contacts lug portions 326 of cantilevered arms 322. The shape,dimension, configuration and material properties of axle 102, lugportions 326, and cantilevered arms 322 are adapted and configured topermit the lug portions 326 of cantilevered arms 322 to pivot radiallyoutwardly relative to axle receiving bore 308 a sufficient amount topermit the end 108 of axle 102 to urge the lug portions 326 upward andbe inserted further into the axle receiving bore 308 past the lugportions 326. The lug portions 326 are biased radially inwardly towardthe center of the axle receiving bore 308 by the main body 324 ofcantilevered arms 322 and as the axle 102 is inserted into the axlereceiving bore 308 to the point where the notch 110 defined within theaxle 102 is below the lug portions 326 of arms 322, the lug portions 326are urged radially inwardly relative to axle receiving bore 308 intonotch 110 (as best shown in FIG. 5B).

The engagement of lug portions 326 of arms 322 of wheel hub 106 withnotch 110 of axle 102, secures wheel hub 106 onto axle 102. When theaxle 102 is inserted into the axle receiving bore 308 to the point wherethe lug portions 326 of arms 322 engage with the notch 110 definedwithin the axle 102, the end 108 of axle 102 extends into the axlereceiving projection 312 of wheel hub 106. Ledges 342 of the axlereceiving projection 312 serve as a stop to prevent the axle 102 fromextending completely through the wheel hub 106 (as best shown in FIG.4F). In additional embodiments, additional elements may be used toprevent the axle from extending through the wheel hub 106. The opening340 defined through axle receiving projection 312 permits visibility ofaxle 102 within wheel hub 106 to ensure the proper mounting of wheel hub106 onto axle 102. Additional embodiments of wheel hub 106 may include aclosed axle receiving projection 312. As mentioned previously,indentation 344 defined within ledges 342 is generally configured,shaped and dimensioned to coincide with the shape of the end 108 of axle102. It should be understood, that additional embodiments of wheelassembly 100, may include wheel hubs 106 that do not includecantilevered arms 322 or an axle receiving projection 312.

The engagement of lug portions 326 of arms 322 of wheel hub 106 withnotch 110 of axle 102 and the abutment of the end 108 of axle 102against the ledges 342 of the axle receiving projection 312 of wheel hub106 prevents the axle 102 from being withdrawn from axle receiving bore308 of wheel hub 106 or inserted further into the axle receiving bore308. In turn, the engagement of the wheel hub 106 with wheel 104 servesto mount wheel 104 onto axle 102. In the illustrated embodiment of wheelassembly 100, the shape, configuration and dimension of the axle 102,wheel 104 and wheel hub 106 are configured so that the end 108 of axle102 projects past outer face 208 of wheel 104 when the wheel hub 106 ismounted onto the axle 102. The extending of the axle 102 past the outerface 208 of wheel 104, increases the performance of wheel 104 withrespect to rotational loads or torque placed upon or exerted on thewheel 104. However, additional embodiments of wheel assembly 100 may beadapted and configured so the end 108 of axle 102 does not project pastthe outer face 208 of wheel 104 when the wheel hub 106 is mounted ontothe axle 102

Removal of Wheel from Axle:

Referring now to FIG. 5A-5B, a removal tool 500 is illustrated for usein removing wheel 104 from axle 102. Once wheel 104 is properly mountedonto axle 102, the wheel 104 cannot be removed from axle 102 withoutdamaging one or more of wheel 104, wheel hub 106 or axle 102 unless thelugs 326 of arms 322 of wheel hub 106 are disengaged from notch 110 ofaxle 102. Removal tool 500 includes a pair of handles 502 pivotallymounted to a central body 504. As shown in FIG. 5B, removal tool 500further includes a pair of extensions 506 which are operativelyconnected to handles 502. Removal tool 500 is configured so that asqueezing together of handles 502 will urge extensions 506 away from oneanother. To remove a wheel 104 of the wheel assembly 100 of theillustrated embodiment from an axle 102, the extensions 506 are insertedthrough openings 348 defined through wheel engaging shoulder 310 ofwheel hub 106. Extensions 506 of removal tool 500 are inserted into thechannel 328 defined within the top surface of the main portion 324 ofeach cantilevered arms 322 which extends into the body of lug portions326. Once the extensions 506 of removal tool 500 are positioned toextend within the lug portions 326, handles 502 are squeezed together,thus urging extensions 506 apart and, in turn, urging lug portions 326radially outward with respect to axle receiving bore 308 of wheel hub106. Once the lug portions 326 have been urged radially outwardly asufficient amount, axle 102 is able to be retracted from axle receivingbore 308 of wheel hub 106, thus removing wheel 104 from axle 102.

FIGS. 6A-6B show one exemplary embodiment of a wheeled container 10which includes another embodiment of a wheel assembly 600. Thedescription of container 10 included herein with respect to wheelassembly 100 is applicable to container 10 used with wheel assembly 600.

Wheel Assembly Including Wheel Hub Adapted for Use with a Fastener:

The illustrated embodiment of wheeled container 10 of FIGS. 6A-6B,includes a wheel assembly 600. The wheel assembly 600 of the illustratedembodiment generally includes an axle 102, a pair of wheels 104, and apair of wheel hubs 606. The description of axle 102 and wheels 104included herein with respect to wheel assembly 100 is applicable towheel assembly 600. However, other axles and wheels may be used. Wheelassembly 600 is mounted to container 10 by the axle 102, which extendsthrough the axle bore 70 defined through wheel assembly mountingportions 60 of container 10. A wheel hub 606 is mounted within eachwheel 104. As described in greater detail herein, each wheel hub 606 isadapted for use with fastener 608 which mounts wheel 104 on axle 102.

While the wheel assembly 600 of the illustrated embodiment includes oneaxle and a pair of wheels and wheel hubs, additional embodiments ofwheel assembly 600 may include different numbers of axles, wheels orwheel hubs. For example, various additional embodiments may include twoaxles and a pair of wheels, with each wheel being mounted to thecontainer with its own axle. In addition, various additional embodimentsof the wheel assembly may include different numbers of wheels, such asone wheel, three wheels, four wheels, etc., which are mounted to one ormore axles by one or more wheel hubs.

Referring now to FIGS. 7A-7F, one embodiment of wheel hub 606 isillustrated in greater detail. The wheel hub 606 of various embodimentsmay have a variety of different shapes and configurations. The wheel hub606 is generally shaped, configured and dimensioned to be receivedwithin wheel hub receiving cavity 210 defined in wheel 104. As describedin more detail herein, the wheel hub 606 is adapted for use withfastener 608 which engages axle 102 to retain wheel 104 on axle 102.

The illustrated embodiment of wheel hub 606 generally includes anelongated axle sleeve 700 and a main body portion 702 extending radiallyoutwardly from the elongated axle sleeve 700. The wheel hub has aninsertion end 704 and an outer end 706. An axle receiving bore 708 isdefined in the insertion end 704 of the axle sleeve 700 and extendsthrough the entire length of axle sleeve 700.

The main body portion 702 of the illustrated embodiment of wheel hub 606is formed by a pair of sidewalls 714 and a pair of end walls 716 thatdefine a partially enclosed space, with an opening 718 being defined inthe top and bottom of main body portion 702. Additional embodiments ofwheel hub 606 include a main body portion 702 that is shaped orconfigured differently or is completely enclosed with no opening 718. Asbest illustrated in FIG. 7C, the main body portion 702 of theillustrated embodiment of wheel hub 606 has a generally rectangularshape when viewed from the insertion end 704 of wheel hub 606 and a tab720 extends radially outwardly from both the top and bottom of each endwall 716.

The main body portion 702 is generally shaped, configured anddimensioned to be received within the outer cavity portion 210 a ofwheel hub receiving cavity 210 defined in wheel 104, with the shape ofthe end walls 716 and tabs 720 coinciding generally with the shape ofthe rectangular shaped aperture 214 of outer cavity portion 210 a andthe notches 218 extending from the top and bottom of rectangularaperture 214. It should be understood, however, that the main bodyportions 702 of various additional embodiments may have a variety ofdifferent shapes, sizes and configurations and the shape of the mainbody portions 702 is not limited by the disclosure herein. For example,the main body portion may have a circular, elliptical or other shapewhen viewed from the insertion end 704 of wheel hub 606.

Referring again to FIGS. 7A-7D, the elongated axle sleeve 700 of theillustrated embodiment of wheel hub 606 includes a wheel engaging rib730 which extends outwardly from the axle sleeve 700 at a positionaxially inward from the insertion end 704 of wheel hub 606. The wheelengaging rib 730 tapers from a first end 732 outwardly to a second end734 which has a wider diameter relative to the first end 732. In variousadditional embodiments the wheel engaging rib 730 may have a variety ofdifferent sizes, shapes and configurations. For example the wheelengaging rib 730 may be located at any position along the axle sleeve700 in additional embodiments or may have a simple rectangular shape andnot be tapered.

A plurality of longitudinal ribs 736 project outwardly from the axlesleeve 700 and generally extend the length of the axle sleeve 700. Aplurality of circumferential ribs 738 project outwardly from the axlesleeve 700. The circumferential ribs 738 are annular ribs which encirclethe axle sleeve 700, but in various additional embodiments thecircumferential ribs 738 may be non-annular and may be located atvarious discrete locations about the circumference of the axle sleeve700. The longitudinal ribs 736 and/or circumferential ribs 738 serve tostrengthen the axle sleeve 700 and main body portion 702 of the wheelhub 606. Due to the inclusion of longitudinal ribs 736 and/orcircumferential ribs 738, the amount and thickness of the material usedto fashion the axle sleeve 700 and main body portion 702 of the wheelhub 606 can be reduced without sacrificing the strength, rigidity ordurability of the components of the wheel hub 606. The longitudinal ribs736 and/or circumferential ribs 738 allow the axle sleeve 700 and mainbody portion 702 of the wheel hub 606 to have similar strength, rigidityand durability as a thicker axle sleeve 700 and main body portion 702 oran axle sleeve 700 and main body portion 702 fashioned from a strongermaterial. In this manner, less material or a less costly material may beused to fashion various components of the wheel hub 606 withoutsacrificing much or any strength, rigidity or durability. Accordingly,the longitudinal ribs 736 and circumferential ribs 738 also serve toreduce the weight of the axle sleeve 700 and main body portion 702 ofthe wheel hub 606 by allowing less material to be used to form the axlesleeve 700 and main body portion 702 of the wheel hub 606. Variousadditional embodiments of wheel hub 606 may be provided withlongitudinal or circumferential ribs having a variety of shapes, sizesand configuration or may be provided without any such longitudinal orcircumferential ribs.

The elongated axle sleeve 700 is generally shaped, configured anddimensioned to be received within the inner cavity portion 210 b ofwheel hub receiving cavity 210 defined in wheel 104, with the shape ofthe axle sleeve 700 and longitudinal ribs 736 extending therefromcoinciding generally with the shape of the central bore 220 and notches222 which extend radially outward from the central bore 220. Theplurality of circumferential ribs 738 projecting outwardly from the axlesleeve 700 are generally shaped, configured and dimensioned to bereceived within the central bore 216 of the outer cavity portion 210 aof wheel 104. It should be understood, however, that the elongated axlesleeve 700 of various additional embodiments may have a variety ofdifferent shapes, sizes and configurations and the shape of theelongated axle sleeve 700 is not limited by the disclosure herein. Forexample, the axle sleeve 700 may have a rectangular, elliptical or othershape when viewed from the insertion end 704.

In the illustrated embodiment of wheel hub 606, axle sleeve 700 includesa spacer portion 750 which extends past the wheel engaging rib 730. Inuse, the spacer portion 750 of the wheel hub 106 serves to space thewheel 104 from the container 10 to prevent the wheel 104 from rubbingagainst the container 10 when the wheel 104 is mounted onto axle 102 ofthe container 10. The end of spacer portion 750 abuts the outer surfaceof wheel receiving recesses 50 of container 10 to create a space betweenthe inner face 208 of wheel 104 and the outer surface of the wheelreceiving recess 50 of container 10 when the wheel 104 is mounted on thecontainer 10 to prevent the inner face 208 of wheel 104 from rubbingagainst the container 10 when the wheel 104 rotates. The dimensions ofthe spacer portion 750 may be modified, as desired, in variousembodiments of wheel hub 606 to provide a space having a variety ofdifferent dimensions between the wheel 104 and container 10 when thewheel 104 is mounted to the container 10. Various additional embodimentsof wheel hub 606 may be provided without such a spacer portion 750.Various additional embodiments of wheel hub 606 may be provided with aseparate spacer that is not integrally formed with the wheel hub 606.

A wheel hub 606 according to the present invention may be formed of oneor more of a variety of suitable materials. The particular material isgenerally selected to be compatible with the desired qualities of thewheel hub 606. For example, in various embodiments, the wheel hubs 606may be made from one or a combination of thermoplastic or elastomericmaterials, such as plastic. In various additional embodiments, the wheelhubs 606 may be made from one or a combination of metals, such as steelor aluminum.

A wheel hub 606 according to the present invention may be manufacturedby one of a variety of methods of making containers that are well knownin the art. The wheel hub 606 of the illustrated embodiment is formed byan injection molding process using a High Density Polyethylene (HDPE).However, good results are also obtained using rotational or blow moldingprocesses with a variety of other thermoplastic and elastomericmaterials. Accordingly, in various additional embodiments according tothe instant invention, wheels 104 may also be made from one or acombination of thermoplastic or elastomeric materials, such as:polyesters, Polycarbonate (PC), polypropylene (PP), polyethylene (PE),Low Density Polyethylene (LDPE), Polyvinyl Chloride (PVC), polyesterterphthalate, butadiene-styrene co-polymers, polyamides,ethylene-vinyl-alcohol copolymer, polyethylene napthaphthalate,thermoplastic and thermosetting resins, polybutylene terephthalate,polyoxymethylenes, polyphenylene, polyphenylene sulfides, polyphenyleneoxides, polymethylmethacrylate, polyethylene-terephthalate (PET),polyvinylidenechloride, polymethylpentene-1, nylon 6, nylon 66,Polyethylene Terephthalate Modified with CHDM (PETG), and mixturesthereof.

Assembly of Wheel Hub Adapted for Use with Fastener and Wheel:

As described in greater detail herein, wheel hub 606 mounts within wheel104. As described in greater detail herein, wheel hub 606 is adapted foruse with fastener 608 which mounts wheel 104 on axle 102. Referring nowto FIGS. 8A-8B, one embodiment of wheel assembly 600 is shown in variousstages of assembly. After the production of wheel 104 and wheel hub 606,wheel hub 606 is inserted into the wheel hub receiving cavity 210defined through center 212 of wheel 104 (as shown by the dashed line inFIG. 8C). The wheel 104 and wheel hub 606 of the illustrated embodiment,may be assembled soon after they are molded or the wheel 104 and wheelhub 606 may be assembled at a later time.

To assemble the wheel hub 606 and wheel, the insertion end 704 of wheelhub 606 is inserted into the wheel hub receiving cavity 210 of wheel104, with the insertion end 704 first passing through the central bore216 of outer cavity portion 210 a and then moving into the central bore220 of inner cavity portion 210 b. As the insertion end 704 of wheel hub606 is inserted into the central bore 220 of inner cavity portion 210 b,the plurality of longitudinal ribs 736 extending along the length ofaxle sleeve 700 are aligned with and fit within the notches 222 ofcentral bore 220 of inner cavity portion 210 b by the assembler (orassembling mechanism). The engagement of longitudinal ribs 736 of axlehub 606 with notches 222 of central bore 220 of wheel 104, serve toalign and orient the wheel hub 606 and wheel 104 for proper assembly.Once the wheel hub 606 and wheel 104 have been assembled together, theribs 736 of wheel hub 606 remain within notches 222 of wheel 104 tostabilize wheel hub 606 and prevent rotational movement of the wheel hub606 relative to the wheel 104. As mentioned previously, additionalembodiments of wheel assembly 600 may be provided without any such ribsor notches however.

As the insertion end 704 of wheel hub 606 is further inserted into thecentral bore 220 of inner cavity portion 210 b, the wheel engaging rib730 located on the elongated axle sleeve 700 of wheel hub 606 contactsthe stepped portion 224 of central bore 220, the wheel engaging rib 730and/or central bore 220 deform to permit the continued passage of theinsertion end 704 of wheel hub 606 through central bore 220. The shape,dimension, configuration and material properties of wheel engaging rib730 and central bore 220 are adapted and configured to permit the wheelengaging rib 730 and/or central bore 220 to deform a sufficient amountto permit the wheel engaging rib 730 to pass through the central bore220 and exit the wheel hub receiving cavity 210 on the inner face 208side of wheel 104. As best illustrated in FIGS. 8D-8F, once the wheelengaging rib 730 of the elongated axle sleeve 700 of wheel hub 606 exitsthe wheel hub receiving cavity 210 of wheel 104, the wheel engaging rib730 abuts and rests against the inner face 208 side of wheel 104. Theouter diameter dimension of the wheel engaging rib 730 is larger thanthe outer diameter dimension of central bore 220. This engagement of thewheel engaging rib 730 with the inner face 208 side of wheel 104,prevents the wheel hub 606 from being pulled back out of the wheel hubreceiving cavity 210 of wheel 104 from the outer face 206 side of wheel104. The abutment of the inner end wall 714 of the main body portion 702of wheel hub 606 against the bottom wall of aperture 214 of wheel 104when wheel hub 606 is inserted into wheel hub receiving cavity 210 ofwheel 104, prevents the wheel hub 606 from being pushed further throughthe wheel hub receiving cavity 210 of wheel 104 from the outer face 206side of wheel 104.

In certain assembly methods employed with certain embodiments of wheelassembly 600, a hammer or other impact, striking, pushing, pulling,driving or urging element is used to force wheel engaging rib 730through wheel hub receiving cavity 210. However, certain embodiments ofwheel assembly, may be assembled without the use of such a device. Inadditional embodiments of wheel assembly 600, wheel hub 606 may notinclude such a wheel engaging rib 730. For example, the wheel hub 106may be retained within wheel 104 by a cotter pin or other fasteningmechanism.

As the insertion end 704 of wheel hub 606 is being inserted into centralbore 220 of inner cavity portion 210 b, the main body portion 702 ofwheel hub 606 enters the outer cavity portion 210 a of the wheel hubreceiving cavity 210 of wheel 104. As the main body portion 702 of wheelhub 606 enters the outer cavity portion 210 a, the sidewalls 714, endwall 716, and tabs 720 of the main body portion 702 are aligned with andfit within the rectangular shaped aperture 214 and notches 218 of outercavity portion 210 a by the assembler (or assembling mechanism). Also,the ribs 738 projecting outwardly from the axle sleeve 700 are alignedwith and fit within the central bore 216 of the outer cavity portion 210a of wheel 104. The alignment of sidewalls 714, end wall 716, and tabs720 of the main body portion 702 of axle hub 606 with the rectangularshaped aperture 214 and notches 218 of outer cavity portion 210 a ofwheel 104 (and the alignment of ribs 738 with central bore 216), serveto align and orient the wheel hub 606 and wheel 104 for proper assembly.Once the wheel hub 606 and wheel 104 have been assembled together, thesidewalls 714, end wall 716, and tabs 720 of the main body portion 702of axle hub 606 remain within the rectangular shaped aperture 214 andnotches 218 of outer cavity portion 210 a of wheel 104 to stabilizewheel hub 606 and prevent rotational movement of the wheel hub 606relative to the wheel 104. Additional embodiments of wheel assembly 600may be provided without a main body portion 702 of axle hub 606 and/orouter cavity portion 210 a or may be provided with a main body portion702 and outer cavity portion 210 a that do not have correspondingshapes.

In the illustrated embodiment of wheel hub 606, the distance betweenwheel engaging rib 730 and outermost end wall 716 located at end 706 isadapted so that wheel hub outeimost end wall 716 of wheel hub 606 isflush with outer face 208 of wheel 104 when wheel hub 606 is mountedwithin wheel 104. However additional embodiments of wheel assembly 600may include a wheel hub 606 that either extends outward from outer face208 of wheel 104 or is recessed within wheel hub receiving cavity 210.

Assembly of Wheel and Axle:

After the insertion of wheel hub 606 into wheel 104, the wheel 104/wheelhub 606 subassembly is mounted onto axle 102 by use of fastener 608. Thewheel 104/wheel hub 606 subassembly of the illustrated embodiment, maybe mounted onto an axle 102 soon after they are assembled together orthe wheel 104/wheel hub 106 subassembly may be mounted onto an axle 102at a later time. The wheel 104/wheel hub 106 subassembly may be mountedonto an axle 102 that is already mounted to container 10 or they may befirst mounted onto an axle 102 which is then mounted to container 10. Inyet additional embodiments, the axle 102 and wheel hub 606 may beassembled together and the wheel 104 can then be assembled with thewheel hub 606 which is already mounted on the axle 102.

The wheel 104/wheel hub 606 subassembly are mounted onto an axle 102 byinserting axle 102 through the wheel hub 606 and affixing fastener 608to the axle 102. The end 108 of axle 102 is inserted through the axlereceiving bore 708 defined through the axle sleeve 700 of wheel hub 606.When the end 108 of axle 102 is inserted through the wheel hub andprojects outwardly from the axle receiving bore 708 on the outer end 706of wheel hub 606, fastener 608 is attached to axle 102.

As best illustrated in FIG. 8A, fastener 608 is a generally cap shapedfastener having a cup shaped portion 800 extending outwardly from agenerally planar rim 802. Cup shaped portion 800 is adapted to fit overend 108 of axle. Fastener 608 includes at least one tab 804 extendingfrom rim 802. Tab 804 engages notch 110 defined in axle 102 to retainfastener 608 onto axle 102. Depending upon the type of fastener beingutilized, additional embodiments of wheel assembly 600 may include anaxle 102 that does not include a notch 110. Rim 802 abuts wheel hub 606and/or outer surface 208 of wheel 104 to retain wheel hub 606 and wheel104 onto axle. While the illustrated embodiment of wheel assembly 600includes a cap shaped fastener, various additional types of fastenersmay be utilized. For example, an annular shaped fastener, a clamp,cotter pin, hairpin, threaded axle with corresponding threaded nut, nutbolt, axle with through-hole and fastener adapted for fitting therein,or various other suitable fasteners may be used.

The engagement of fastener 608 with axle 102 secures wheel hub 606 ontoaxle 102 by preventing the axle 102 from being withdrawn from axlereceiving bore 708 of wheel hub 606. In turn, the engagement of thewheel hub 606 with wheel 104 serves to mount wheel 104 onto axle 102.

In the illustrated embodiment of wheel assembly 600, the shape,configuration and dimension of the axle 102, wheel 104 and wheel hub 606are configured so that the end 108 of axle 102 projects past outer face208 of wheel 104 when the wheel hub 606 is mounted onto the axle 102.The extending of the axle 102 past the outer face 208 of wheel 104,increases the performance of wheel 104 with respect to rotational loadsor torque placed upon or exerted on the wheel 104. However, additionalembodiments of wheel assembly 600 may be adapted and configured so theend 108 of axle 102 does not project past the outer face 208 of wheel104 when the wheel hub 606 is mounted onto the axle 102. To remove wheelassembly 600 from axle 102, fastener 608 is removed from the axle 102and the wheel hub 606 can slide off of axle 102.

Wheel 104 of wheel assembly 100 and 600 is adapted to receive eitheraxle-engaging wheel hub 106 of wheel assembly 100 or wheel hub 606 andfastener 608 of wheel assembly 600. In this manner, a wheel assemblysystem is provided that can be adapted to use either an axle-engagingwheel hub or a wheel hub adapted for use with an additional fastener tomount wheels to axle of the wheel assembly. Accordingly, if an assemblerof a wheeled container or other device including a wheel assemblydesires to assemble the wheel assembly without the need for additionalfasteners, an axle-engaging wheel hub as described herein may beselected, inserted into wheel and the wheel/wheel hub assembly can thenbe mounted to an axle. Conversely, if an assembler of a wheeledcontainer or other device including a wheel assembly desires to use anadditional fastener to mount the wheels to an axle, a wheel hub adaptedfor use with an additional fastener, as described herein, may beselected. In this manner, a single wheel design and single axle designcan be used to mount wheels of a wheel assembly to an axle using anaxle-engaging wheel hub or with the use of a wheel hub adapted for usewith an additional fastener depending upon the desires of the assemblerin connection with various factors that an assembler may consider, suchas cost considerations, assembly time, tools available, ability andexperience of assembler, desired functionality and characteristics ofthe wheel assembly, etc.

When an assembler determines whether an axle-engaging hub or a wheel hubadapted for use with an additional fastener will be used to mount awheel to an axle a variety of different criteria may be considered.Generally, a wheel hub adapted for use with an additional fastener maycreate a stronger engagement with the axle, as the fastener 608 usedoften grips the axle 102 with a greater force than the engagement of thelug portion 326 of the cantilevered arms 322 with the notches 110defined in the axle 102. Generally, the embodiments of wheel hub adaptedfor use with an additional fastener disclosed herein are less costly toproduce than the embodiments of axle-engaging wheel hub disclosed hereindue to the amount of material and molding process necessary to producethe axle-engaging wheel hub and the wheel hub adapted for use with anadditional fastener. However, a wheel hub adapted for use with anadditional fastener is usually not as easy to remove from an axle asaxle-engaging wheel hub and pliers or other tools are usually requiredto remove the fastener from the axle. Furthermore, once such a fasteneris removed from the axle, it is generally not reusable and must bereplaced. Also, depending upon the type of fastener used, the fastenermay rust, corrode or otherwise degrade over time. Conversely, theembodiments of axle-engaging hub disclosed herein are generally easierto remove than the embodiments of wheel hub adapted for use with anadditional fastener disclosed herein and may be removed without the useof tools and are reusable once removed from an axle.

In yet additional embodiments of wheel assembly, one particular wheeldesign may be provided for use with a snap-on or axle-engaging wheelhub, and wheels of another particular design are employed with wheelhubs adapted for use with an additional fastener to attach the wheels toan axle. Accordingly, it should be understood that the variouscombinations and sub-combinations of the various components describedherein may be employed together in additional embodiments.

The use of separate wheel 104 and insertable wheel hubs 106, 606 allowsfor the wheel and hubs to each be formed from different materials andproduced through different molding processes if desired. For example,various embodiments of wheel 104 according to the present invention maybe formed of High Density Polyethylene (HDPE) and produced by a blowmolding process. Various embodiments of wheel hub 106 may be foinied ofan engineered material including nylon 66 and impact modifiers using aninjection molding process and various embodiments of wheel hub 606 maybe formed of High Density Polyethylene (HDPE) using an injection moldingprocess. The use of wheel hubs which are formed separately of the wheelallows for the use of different materials and production methods to beused to produce the various components. For example, stronger materialsor different molding methods may be desired for use in forming the wheelhubs, as they may experience more stress and strain in use than theremainder of the wheel. As stronger materials may be more costly thanalternative materials, it may not be desirable to form the entire wheelfrom such materials, as the additional cost necessary to do so mayoutweigh the benefits of added strength gained by the use of suchmaterials or such added strength may not be necessary for all areas ofthe wheel. In various embodiments, a variety of wheel hubs may beprovided, each wheel hub possessing a different strength, or othercharacteristic, than the other wheel hubs. An assembler of the wheelassembly may then select the wheel hub with the characteristics, such asa particular strength or durability, that are desired in connection witha particular wheel assembly. Accordingly, one wheel design may be usedand the performance and characteristics of the wheel assembly may beselected and adapted as desired, by an assembly, based upon theselection of the wheel hub that is inserted into the wheel.

In addition, the use of wheel hubs which are foamed separately from thewheel allows for the adaptation of the wheel hubs to accommodate avariety of sizes and types of axles if desired. For example, variouswheel hubs may be provided, each for use with an axle having aparticular diameter. An assembler may then select the appropriate wheelhub for the diameter of the axle that is to be used for a particularwheel assembly during assembly of the wheel assembly. In this manner,one wheel design may be adapted for use with a variety of differentaxles based on the selection of the wheel hub which is inserted into thewheel. The axle of the illustrated embodiments of wheel assembly has adiameter of approximately ⅝ of an inch. However, in additionalembodiments, the axle may have a ½ inch diameter, or a variety of othersuitable diameter dimensions.

While the present invention has been illustrated by the description ofembodiments thereof, and while the embodiments have been described inconsiderable detail, it is not the intention of the applicants torestrict or in any way limit the scope of the invention to such details.Additional advantages and modifications will readily appear to thoseskilled in the art. For example, where components are releasable orremovably connected or attached together, any type of releasableconnection may be suitable including for example, locking connections,fastened connections, tongue and groove connections, etc. Still further,component geometries, shapes, and dimensions can be modified withoutchanging the overall role or function of the components. Therefore, theinventive concept, in its broader aspects, is not limited to thespecific details, the representative apparatus, and illustrativeexamples shown and described. Accordingly, departures may be made fromsuch details without departing from the spirit or scope of theapplicant's general inventive concept.

While various inventive aspects, concepts and features of the inventionsmay be described and illustrated herein as embodied in combination inthe exemplary embodiments, these various aspects, concepts and featuresmay be used in many alternative embodiments, either individually or invarious combinations and sub-combinations thereof. Unless expresslyexcluded herein all such combinations and sub-combinations are intendedto be within the scope of the present inventions. Still further, whilevarious alternative embodiments as to the various aspects, concepts andfeatures of the inventions—such as alternative materials, structures,configurations, methods, devices and components, alternatives as toform, fit and function, and so on—may be described herein, suchdescriptions are not intended to be a complete or exhaustive list ofavailable alternative embodiments, whether presently known or laterdeveloped. Those skilled in the art may readily adopt one or more of theinventive aspects, concepts or features into additional embodiments anduses within the scope of the present inventions even if such embodimentsare not expressly disclosed herein. Additionally, even though somefeatures, concepts or aspects of the inventions may be described hereinas being a preferred arrangement or method, such description is notintended to suggest that such feature is required or necessary unlessexpressly so stated. Still further, exemplary or representative valuesand ranges may be included to assist in understanding the presentdisclosure, however, such values and ranges are not to be construed in alimiting sense and are intended to be critical values or ranges only ifso expressly stated. Moreover, while various aspects, features andconcepts may be expressly identified herein as being inventive orforming part of an invention, such identification is not intended to beexclusive, but rather there may be inventive aspects, concepts andfeatures that are fully described herein without being expresslyidentified as such or as part of a specific invention, the inventionsinstead being set forth in the appended claims. Descriptions ofexemplary methods or processes are not limited to inclusion of all stepsas being required in all cases, nor is the order that the steps arepresented to be construed as required or necessary unless expressly sostated.

1. A wheel assembly, comprising: at least one axle; at least one wheel,wherein the wheel comprises a wheel hub receiving aperture; anaxle-engaging wheel hub, wherein the wheel hub receiving aperture of thewheel is adapted to receive the axle-engaging wheel hub and wherein theaxle-engaging wheel hub comprises: an axle receiving sleeve, wherein awheel engaging rib extends outwardly from the axle receiving sleeve andis adapted to contact an inner face of the at least one wheel when theaxle-engaging wheel hub is inserted into the wheel hub receivingaperture to prevent withdrawal of the axle-engaging wheel hub from thewheel hub receiving aperture, and wherein an axle receiving bore isdefined in the axle receiving sleeve for receiving the at least oneaxle; and at least one cantilevered arm, wherein the at least onecantilevered arm includes a lug portion for engagement with a notchdefined in the at least one axle when the at least one axle is insertedinto the axle receiving bore a predetermined distance to retain theaxle-engaging wheel hub on the at least one axle.
 2. The wheel assemblyof claim 1 wherein the axle-engaging wheel hub further comprises a wheelengaging shoulder for contacting an outer face of the at least onewheel, wherein the wheel engaging shoulder is dimensioned to preventinsertion of the wheel engaging shoulder through the wheel hub receivingaperture.
 3. The wheel assembly of claim 1 wherein the an axle receivingsleeve of the axle-engaging wheel hub further comprises a spacerportion, wherein the spacer portion is adapted to space the inner faceof the at least one wheel from a container when the wheel assembly ismounted to the container.
 4. The wheel assembly of claim 1 wherein theat least one wheel is formed by a blow molding process.
 5. The wheelassembly of claim 4 wherein the axle-engaging wheel hub is formed by aninjection molding process.
 6. The wheel assembly of claim 1 wherein thewheel hub receiving aperture of the at least one wheel comprises atleast one notch and wherein the axle-engaging wheel hub comprises atleast one longitudinal rib adapted for engagement with the at least onenotch of the wheel hub receiving aperture.
 7. The wheel assembly ofclaim 1 wherein a channel is defined in that at least one cantileveredarm for receiving a removal tool, wherein the removal tool is adaptedfor urging the at least one cantilevered arm outwardly from the notchdefined in the at least one axle to allow for the removal of the axlefrom the axle-engaging wheel hub.
 8. A wheel assembly, comprising: atleast one axle; at least one wheel, wherein the wheel comprises a wheelhub receiving aperture; a wheel hub and fastener subassembly, whereinthe wheel hub and fastener subassembly comprises: a wheel hub comprisingan axle receiving sleeve, wherein the wheel hub receiving aperture isadapted to receive the wheel hub, wherein a wheel engaging rib extendsoutwardly from the axle receiving sleeve and is adapted to contact aninner face of the at least one wheel when the wheel hub is inserted intothe wheel hub receiving aperture to prevent withdrawal of the wheel hubfrom the wheel hub receiving aperture, wherein an axle receiving bore isdefined in the axle receiving sleeve for receiving the at least oneaxle, wherein the axle receiving sleeve is dimensioned so that a portionof the axle extends through the axle receiving sleeve and a portion ofthe axle projects outwardly from of an outer end of the wheel hub; and afastener, wherein the fastener is adapted to affix to the portion of theaxle which extends outwardly from the outer end of the wheel hub toretain the wheel hub on the at least one axle.
 9. The wheel assembly ofclaim 8 wherein the an axle receiving sleeve of the wheel hub furthercomprises a spacer portion, wherein the spacer portion is adapted tospace the inner face of the at least one wheel from a container when thewheel assembly is mounted to the container.
 10. The wheel assembly ofclaim 8 wherein the at least one wheel is formed by a blow moldingprocess.
 11. The wheel assembly of claim 10 wherein the wheel hub isformed by an injection molding process.
 12. The wheel assembly of claim8 wherein the wheel hub receiving aperture of the at least one wheelcomprises at least one notch and wherein the wheel hub comprises atleast one longitudinal rib adapted for engagement with the at least onenotch of the wheel hub receiving aperture.
 13. A wheel assembly,comprising: at least one axle; at least one wheel, wherein the wheelincludes a wheel hub receiving aperture which is adapted to receive oneof either an axle-engaging wheel hub or a wheel hub and fastenersubassembly to form a wheel/wheel hub subassembly, wherein both theaxle-engaging wheel hub and the wheel hub and fastener subassembly axleare adapted for insertion into the wheel hub receiving aperture basedupon the selection of an assembler: wherein the axle-engaging wheel hubcomprises: an axle receiving sleeve, wherein a wheel engaging ribextends outwardly from the axle receiving sleeve and is adapted tocontact an inner face of the at least one wheel when the axle-engagingwheel hub is inserted into the wheel hub receiving aperture to preventwithdrawal of the axle-engaging wheel hub from the wheel hub receivingaperture, and wherein an axle receiving bore is defined in the axlereceiving sleeve for receiving the at least one axle; and at least onecantilevered arm, wherein the at least one cantilevered arm includes alug portion for engagement with a notch defined in the at least one axlewhen the at least one axle is inserted into the axle receiving bore apredetermined distance to retain the axle-engaging wheel hub on the atleast one axle; and wherein the wheel hub and fastener subassemblycomprises: a wheel hub comprising an axle receiving sleeve, wherein thewheel hub receiving aperture is adapted to receive the wheel hub,wherein a wheel engaging rib extends outwardly from the axle receivingsleeve and is adapted to contact an inner face of the at least one wheelwhen the wheel hub is inserted into the wheel hub receiving aperture toprevent withdrawal of the wheel hub from the wheel hub receivingaperture, wherein an axle receiving bore is defined in the axlereceiving sleeve for receiving the at least one axle, wherein the axlereceiving sleeve is dimensioned so that a portion of the axle extendsthrough the axle receiving sleeve and a portion of the axle projectsoutwardly from of an outer end of the wheel hub; and a fastener, whereinthe fastener is adapted to affix to the portion of the axle whichextends outwardly from the outer end of the wheel hub to retain thewheel hub on the at least one axle.
 14. The wheel assembly of claim 13wherein the at least one wheel is formed by a blow molding process. 15.The wheel assembly of claim 14 wherein the axle-engaging wheel hub orwheel hub of the wheel hub and fastener subassembly is formed by aninjection molding process.
 16. The wheel assembly of claim 13 whereinthe axle-engaging wheel hub further comprises a wheel engaging shoulderfor contacting an outer face of the at least one wheel, wherein thewheel engaging shoulder is dimensioned to prevent insertion of the wheelengaging shoulder through the wheel hub receiving aperture.
 17. Thewheel assembly of claim 13 wherein the axle receiving sleeve of theaxle-engaging wheel hub further comprises a spacer portion, wherein thespacer portion is adapted to space the inner face of the at least onewheel from a container when the wheel assembly is mounted to thecontainer.
 18. A wheeled container comprising: a container; a wheelassembly, the wheel assembly comprising: at least one axle; at least onewheel, wherein the wheel includes a wheel hub receiving aperture whichis adapted to receive one of an axle-engaging wheel hub or a wheel huband fastener subassembly, wherein both the axle-engaging wheel hub andthe wheel hub and fastener subassembly axle are adapted for insertioninto the wheel hub receiving aperture to form a wheel/wheel hubsubassembly based upon the selection of an assembler: an axle-engagingwheel hub, wherein the axle-engaging wheel hub comprises: an axlereceiving sleeve, wherein a wheel engaging rib extends outwardly fromthe axle receiving sleeve and is adapted to contact an inner face of theat least one wheel when the axle-engaging wheel hub is inserted into thewheel hub receiving aperture to prevent withdrawal of the axle-engagingwheel hub from the wheel hub receiving aperture, and wherein an axlereceiving bore is defined in the axle receiving sleeve for receiving theat least one axle; and at least one cantilevered arm, wherein the atleast one cantilevered arm includes a lug portion for engagement with anotch defined in the at least one axle when the at least one axle isinserted into the axle receiving bore a predetermined distance to retainthe axle-engaging wheel hub on the at least one axle; and a wheel huband fastener subassembly, wherein the wheel hub and fastener subassemblycomprises: a wheel hub comprising an axle receiving sleeve, wherein thewheel hub receiving aperture is adapted to receive the wheel hub,wherein a wheel engaging rib extends outwardly from the axle receivingsleeve and is adapted to contact an inner face of the at least one wheelwhen the wheel hub is inserted into the wheel hub receiving aperture toprevent withdrawal of the wheel hub from the wheel hub receivingaperture, wherein an axle receiving bore is defined in the axlereceiving sleeve for receiving the at least one axle, wherein the axlereceiving sleeve is dimensioned so that a portion of the axle extendsthrough the axle receiving sleeve and a portion of the axle projectsoutwardly from of an outer end of the wheel hub; and a fastener, whereinthe fastener is adapted to affix to the portion of the axle whichextends outwardly from the outer end of the wheel hub to retain thewheel hub on the at least one axle.
 19. A wheel assembly, comprising: atleast one axle; at least one wheel, wherein the wheel comprise a wheelhub receiving aperture adapted to receive a wheel hub, wherein the wheelhub receiving aperture comprises an outer cavity portion opening to anouter face of the wheel and an inner cavity portion opening to an innerface of the wheel, wherein the outer cavity portion comprises arectangular shaped aperture which is bisected by an outer cavity bore,wherein the inner cavity portion comprises an inner cavity bore; and awheel hub, wherein the wheel hub comprises: a main body portion; anelongated axle sleeve, wherein a wheel engaging rib extends outwardlyfrom the axle receiving sleeve, wherein the wheel engaging rib isadapted to contact the inner face of the at least one wheel when thewheel hub is inserted into the wheel hub receiving aperture to preventwithdrawal of the wheel hub from the wheel hub receiving aperture, andwherein an axle receiving bore is defined in the axle receiving sleevefor receiving the at least one axle; wherein the outer cavity portion ofthe wheel hub receiving aperture is adapted to receive the main bodyportion; and wherein the inner cavity portion of the wheel hub receivingaperture is adapted to receive the elongated axle sleeve.
 20. The wheelassembly of claim 19 wherein the axle receiving sleeve of the wheel hubfurther comprises a spacer portion, wherein the spacer portion isadapted to space the inner face of the at least one wheel from acontainer when the wheel assembly is mounted to the container.
 21. Thewheel assembly of claim 19 wherein the wheel hub further comprises atleast one cantilevered arm, wherein the at least one cantilevered armincludes a lug portion for engagement with a notch defined in the atleast one axle when the at least one axle is inserted into the axlereceiving bore a predetermined distance to retain the axle-engagingwheel hub on the at least one axle.
 22. The wheel assembly of claim 21wherein the wheel hub further comprises a wheel engaging shoulder forcontacting the outer face of the at least one wheel, wherein the wheelengaging shoulder is dimensioned to prevent insertion of the wheelengaging shoulder through the wheel hub receiving aperture.
 23. Thewheel assembly of claim 10 wherein the axle receiving sleeve of thewheel hub is dimensioned so that an end of the axle extends through theaxle receiving sleeve and a portion of the axle projects outwardly fromof an outer end of the wheel hub when the axle is inserted into axlereceiving sleeve, the wheel assembly further comprising a fastener,wherein the fastener is adapted to affix to the portion of the axlewhich extends outwardly from the outer end of the wheel hub to retainthe wheel hub on the at least one axle.
 24. The wheel assembly of claim19 wherein the at least one wheel is formed by a blow molding process.25. The wheel assembly of claim 24 wherein the wheel hub is formed by aninjection molding process.
 26. The wheel assembly of claim 19 whereinthe wheel hub receiving aperture of the at least one wheel comprises atleast one notch and wherein the wheel hub comprises at least onelongitudinal rib adapted for engagement with the at least one notch ofthe wheel hub receiving aperture.